High-precision method that involves forcing material into a mold to produce complex shapes at scale. Ideal for repeatable, high-volume ceramic or polymer components with fine detail.
Tightly controlled cutting, grinding, or turning to achieve fine tolerances and critical dimensions. Ensures components meet exact specifications with smooth surfaces and consistent quality.
Forming solid parts by pouring material into molds and allowing it to solidify. Useful for creating large or complex shapes with good thermal, mechanical, or chemical properties.
Combining multiple operations (cutting, bending, joining) to assemble finished components or modules. Enables customised assemblies tailored to specific functional or structural requirements.
Applying pressure in a single direction to compact powders into dense parts. Simple yet effective for flat or moderately shaped components needing reliable strength and density.
Using fluid pressure from all sides to compress powder evenly. This method provides superior uniformity and density – excellent for parts with complex geometry or tight internal features.
Forcing material through a shaped die to produce elongated profiles or continuous cross-sectional parts. Efficient and cost-effective for rods, tubes, or profiles requiring consistent cross-section.
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